CS219536B1 - Device for turning of clamping jaws of three-jaw chuck - Google Patents

Abstract

The invention relates to a device for re-turning the clamping jaws of a three-jaw chuck of a lathe machine, in particular soft jaws intended for clamping parts by their machined side. The problem of accurate and complete re-turning of soft jaws is solved by means of a special ring. One embodiment of the ring according to the invention has projections in the form of plates in the axial direction firmly mounted on the side wall, located at equal angular distances. The plates protrude beyond the wall of the ring towards the center. The non-protruding part of each plate is supported on both sides by segments of triangular cross-section. In the second embodiment of the ring according to the invention, three bodies with a cross-section of a right-angled quadrilateral in the axial direction are firmly attached to the side wall, located at equal angular distances. The bodies protrude beyond the wall of the ring towards the center. In both designs, the ring is clamped into the clamping jaws so that the jaws are free to rotate along their entire length.

Description

The invention relates to a device for turning the clamping jaws of a three-jaw chuck of a turning machine, in particular soft jaws, for clamping smaller diameter components beyond their machining side. t '; \

If one side of the workpiece is machined and the other side is to be machined, then it is necessary to clamp the workpiece behind the machined side in soft jaws. These jaws must be exactly the radius of the rotary part to be machined, otherwise there is a risk of deformation or damage to the surface of the part. For this purpose, the jaws must be re-turned according to the machining diameter of the part, directly in the chuck in which it is to be clamped, in the clamped state; the jaw clearances must be precisely defined in the chuck used. For this purpose, a simple ring is used as a known device, which is clamped into the jaws so that they can be turned in the greatest possible length. However, they can never be turned over the entire length.

The elimination of this drawback is the result of the device according to the invention comprising a ring having three symmetrically arranged protrusions directed towards the center between the clamping jaws by means of which the clamping jaws are held in the clamped position. According to another embodiment, the protrusions of the ring are formed by plates fixedly attached to the side wall of the ring at equal angular distances. According to another embodiment, each plate is supported on both sides by a portion of its surface against segments of a triangular cross section fixedly connected to the ring. According to a further embodiment, the protrusions of the ring are formed by bodies of rectangular cross section, rigidly attached to the side wall of the ring at equal angular distances, which fit into the cut-outs of the side walls of the clamping jaws.

The device according to the invention makes it possible to turn the jaws in the clamped state over the entire length without limitation. It is also possible to regrind the jaw faces.

An exemplary embodiment of the invention is shown in the drawing, wherein Fig. 1 shows a chuck in which a ring is clamped by its inserts, Fig. 2 is a view of a circle with sides of inserts with triangular segments; Fig. 3 is a chuck with slits in the jaws receiving the ring bodies having a quadrangular cross-section; Fig. 4 is a view of the ring from the side of the ring bodies.

The ring shown in FIGS. 1 and 2 has fixedly protruding plate-like protrusions 4 in the axial direction at equal angular distances on the side wall 3. The plates 4 overlap the wall of the ring towards the center. For greater stability and rigidity, the non-projecting portion of the plate 4 is supported on both sides by segments 5 of triangular cross-section. In FIG. 1, a ring inserted by its projections in the form of pads with segments 5 between the clamping jaws 1 is shown. By clamping the clamping jaws 1, the protruding parts of the plates 4 are clamped between the chamfered parts 2, the side walls 8, of the clamping jaws 1, thereby defining their play. Thereby, the clamping jaws 1 are free to twist along their entire lengths as well as their faces 8. Another embodiment of the ring according to the invention is shown in Figures 3 and 4. On the side wall 3 of the ring, three bodies 7 of rectangular cross-section axially positioned at equal angular distances. The bodies 7 project beyond the wall of the ring towards the center. FIG. 3 shows a ring inserted by its projections in the form of bodies 7 of rectangular cross-section between the clamping jaws 1, so that the individual bodies 7 with their edges fit into the slots provided in the side walls 8 of two adjacent clamping jaws. The axis direction is approximately the same as the length of the clamping jaws 1 in the axial direction. By clamping, the play of the bodies 7 in the cut-outs of the side walls 8 of the clamping jaws 1 is defined. In this state, the clamping jaws 1 are free to rotate in their entire length, as well as their faces 6.

Claims (4)

SUBJECT A device for turning a chuck jaws of a three-jaw chuck, comprising a ring inserted into a chuck, characterized in that the ring has three symmetrically arranged axial protrusions directed towards the center of the chuck between the chucks (1) to limit the holding clearance in the clamped position. Device according to claim 1, characterized in that the protrusions of the ring are formed by plates (4) fixedly connected to the side wall ( 3) the ring at equal angular distances. OF THE INVENTION «3. Device according to Claims 1 and 2, characterized in that each plate (4) is supported on both sides by a portion of its surface against segments (5) of triangular cross-section fixedly connected to the ring. Device according to claim 1, characterized in that the ring protrusions are formed by bodies (7) of rectangular cross-section fixedly connected to the side wall (3) of the ring at equal angular distances, which fit into the cutouts of the side walls (8) of the clamping jaws (1). 1 sheet of drawings